Damping Rings in the Engineering Design Phase

1. Damping Rings in the Engineering Design Phase Andy Wolski Cockcroft Institute/University of Liverpool Global Design Effort

2. Contents • Overview of technical presentations during the Damping Rings parallel (Thursday). • Lattice design • Electron cloud and vacuum system • Fast ion instability • Impedance and impedance-driven instabilities • Fast injection/extraction kickers • Low-emittance tuning • Instrumentation and diagnostics • Polarisation • Cornell program/CesrTA • LBNL program • Outcome of discussions on Damping Rings organisation and milestones for the Engingeering Design Phase (Friday). Global Design Effort

3. Lattice Design: Louis Emery/Aimin Xiao Global Design Effort

4. Lattice Design: Yi-Peng Sun Global Design Effort

5. Electron Cloud: Roberto Cimino Global Design Effort

6. Vacuum and Ecloud: Oleg Malyshev Global Design Effort

7. Fast Ion Instability: Guoxing Xia Global Design Effort

8. Coupled Bunch Instability: Kai Meng Hock Global Design Effort

9. Injection/Extraction Kickers: Takashi Naito Global Design Effort

10. Injection/Extraction Kickers: Mark Palmer Global Design Effort

11. Injection/Extraction Kickers: Mark Palmer Global Design Effort

12. Injection/Extraction Kickers: David Alesini Global Design Effort

13. Injection/Extraction Kickers: David Alesini Global Design Effort

14. Injection/Extraction Kickers: George Gollin Probably not: requires too much power! Global Design Effort

15. Low-Emittance Tuning: Kiyoshi Kubo Global Design Effort

16. Instrumentation: Manfred Wendt Global Design Effort

17. Instrumentation: Manfred Wendt Global Design Effort

18. Cornell Program: Mark Palmer Global Design Effort

19. CesrTA: Mark Palmer Global Design Effort

20. LBNL Program: Mike Zisman Global Design Effort

21. Tentatively suggested Work Packages • Lattice design • Impedance and impedance-driven instabilities • Electron cloud • Ion effects • Acceptance • Orbit, optics and coupling correction • Vacuum system • Magnets and magnet supports • Power systems • 650 MHz RF system • Injection and extraction systems • Fast feedback systems • Abort systems • Instrumentation and diagnostics • Systems integration • ATF • CesrTA… Global Design Effort

22. Planning the Engineering Design Phase Global Design Effort

23. Work Package: Impedance Global Design Effort

24. Work Package: Vacuum Global Design Effort

25. “Critical Information Exchange” example 1 Global Design Effort

26. Work Package: Electron Cloud Global Design Effort

27. “Critical Information Exchange” example 2 Global Design Effort

28. Work Package: Coupling Correction Global Design Effort

29. Work Package: Magnets and Supports Global Design Effort

30. “Critical Information Exchange” example 3 Global Design Effort

31. Milestones… Global Design Effort

32. Milestones… (continued) Global Design Effort

33. How to define a Work Package? The plan has evolved from an original version that was clearly unmanageable, to one that “feels” manageable. The characteristics that make it feel manageable are: • Each Work Package contains one or more (fairly) continuous activities (though not necessarily at a constant level of effort). • The number of parallel activities within each Work Package is minimised; ideally, there is only one activity going on within each Work Package at any given time. • The number of points of “Critical Information Exchange” is minimised. Note: there is no explicit distinction made between activities on different points of the scale from basic R&D (e.g. electron cloud mitigation) to design of relatively-straightforward components (e.g. quadrupoles). Global Design Effort

34. Next Steps • Complete the list of Tasks and Milestones, filling in all the dependencies and connections. • Match the Resources to the Work Packages. • This will provide a reality check. • Information on Damping Rings resources and activities has recently been updated: we have (most of) the information that we need. • Meanwhile: discuss all this with the EDR Task Force… Global Design Effort